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Transcript
Physics 1402: Lecture 33
Today’s Agenda
• Announcements:
– Midterm 2: graded after Thanks Giving
– Homework 09: Friday December 4
• Optics
– interference
A wave through two slits
In Phase, i.e. Maxima when DP = d sinq = nl
Out of Phase, i.e. Minima when DP = d sinq = (n+1/2)l
d
q
DP=d sinq
Screen
A wave through two slits
In Phase, i.e. Maxima when DP = d sinq = nl
+
Out of Phase, i.e. Minima when DP = d sinq = (n+1/2)l
+
The Intensity
What is the intensity at P?
The only term with a t dependence is
sin2( ).That term averages to ½ .
If we had only had one slit, the
intensity would have been,
So we can rewrite the total intensity as,
with
The Intensity
We can rewrite intensity at point P
in terms of distance y
Using this relation, we can rewrite
expression for the intensity at point
P as function of y
Constructive interference occurs at
where m=+/-1, +/-2 …
Phasor Addition of Waves
Consider a sinusoidal wave whose
electric field component is
E2(t)
E1(t)
E0
wt+f
E0
wt
Consider second sinusoidal wave
E2(t)
The projection of sum of two
phasors EP is equal to
EP(t)
E1(t)
f/2
f
ER
wt
E0
E0
Phasor Diagrams for Two
Coherent Sources
ER=2E0
ER
450
E0
E0
E0
ER=0
E0
E0
E0
ER
E0
E0
ER
900
E0
2700
E0
ER=2E0
E0
E0
SUMMARY
2 slits interference pattern (Young’s experiment)
How would pattern be changed if we add one or more slits ?
(assuming the same slit separation )
3 slits, 4 slits, 5 slits, etc.
Phasor: 1 vector represents 1 traveling wave
single traveling wave
2 wave interference
N-slits Interference Patterns
F=0
F=90
F=180
F=270
F=360
N=2
N=3
N=4
Change of Phase Due to Reflection
Lloyd’s mirror
P2
S
P1
L
I
Mirror
The reflected ray (red) can be considered as
an original from the image source at point I.
Thus we can think of an arrangement S and I
as a double-slit source separated by the
distance between points S and I.
An interference pattern for this experimental
setting is really observed …..
but dark and bright fringes
are reversed in order
This mean that the sources S and I are different in phase by 1800
An electromagnetic wave undergoes a phase change by 1800 upon
reflecting from the medium that has a higher index of refraction than
that one in which the wave is traveling.
Change of Phase Due to Reflection
n1
n2
1800 phase change
n1<n2
n1
no phase change
n1>n2
n2
Interference in Thin Films
1800 phase
change
1
Air
Film
Air
no phase
change
2
A wave traveling from air toward film
undergoes 1800 phase change upon
reflection.
The wavelength of light ln in the medium
with refraction index n is
t
The ray 1 is 1800 out of phase with ray 2 which is equivalent
to a path difference ln/2.
The ray 2 also travels extra distance 2t.
Constructive interference
Destructive interference
Chapter 33 – Act 1
Estimate minimum thickness of a soap-bubble film (n=1.33) that
results in constructive interference in the reflected light if the film is
Illuminated by light with l=600nm.
A) 113nm
B) 250nm
C) 339nm
Problem
Consider the double-slit arrangement shown in Figure
below, where the slit separation is d and the slit to
screen distance is L. A sheet of transparent plastic
having an index of refraction n and thickness t is
placed over the upper slit. As a result, the central
maximum of the interference pattern moves upward a
distance y’. Find y’
where will the
central
maximum
be now ?
Solution
Phase difference for going
though plastic sheet:
Corresponding path length
difference:
Angle of central max is approx:
Thus the distance y’ is:
gives
Phase Change upon Reflection from a Surface/Interface
Reflection from
Optically Denser Medium (larger n)
180o Phase Change
Reflection from
Optically Lighter Medium (smaller n)
No Phase Change
by analogy to reflection of traveling wave in mechanics
constructive: 2t = (m +1/2) ln
destructive: 2t = m ln
constructive: 2t = m ln
destructive: 2t = (m +1/2) ln
Examples :
Application
Reducing Reflection in Optical Instruments